Application of imaging and 3D reconstruction in the diagnosis and treatment of pelvic organ prolapse.
LIU Ping,CHEN Lan.
Chinese Journal of Practical Gynecology and Obstetrics ›› 2015, Vol. 31 ›› Issue (4) : 295-301.
Application of imaging and 3D reconstruction in the diagnosis and treatment of pelvic organ prolapse.
Abstract:Understanding the anatomy of the pelvic floor is the premise of diagnosis, treatment and prevention of pelvic organ prolapse. Imaging examinations is usually used as one of the important methods to diagnose the disease in hospital, which includes the X-ray angiography, ultrasound and magnetic resonance imaging. While as a new assessment tool used in the diagnosis and treatment of pelvic organ prolapse, the three-dimensional reconstruction skill is being widely used. This paper reviews the value of the various imaging techniques and three-dimensional reconstruction technique in helping with the diagnosis and treatment of pelvic organ prolapse, looking forward to provide a reference of selecting the proper assessment method for pelvic organ prolapse.
pelvic organ prolapse / imaging skill / three-dimensional reconstruction
[1] Yang A, Mostwin JL, Rosenshein NB, et al.Pelvic floor descent in women: dynamic evaluation with fast MR imaging and cinematic display[J]. Radiology, 1991,179(1):25-33.
[2] 王毅.盆底影像学技术及其价值[J]. 临床放射学杂志,2004,23(5):441-443.
[3] Wallden L. Roentgen examination of the deep rectogenital pouch[J].Acta Radiologica, 1953,39(2):105-116.
[4] Deval B, Vulierme MP, Poilpot SJ, et al. Imaging pelvic floor prolapse[J]. J Gynecol Obstet Biol Reprod(Paris), 2003,32(1):22-29.
[5] Kelvin FM, Hale DS, Maglinte DD, et al. Female pelvic organ prolapse:diagnostic contribution of dynamic cystoproctography and comparison with physical examination[J]. AJR Am J Roentgenol, 1999,173(1):31-37.
[6] Beer-Gabel M, Teshler M, Barzilai N, et al. Dynamic transperineal ultrasound in the diagnosis of pelvic floor disorders:pilot study[J].Dis Colon Rectum, 2002,45(2): 239-245.
[7] Santoro G, Majida M, Engh ME, et al. State of the art: an integrated approach to pelvic floor ultrasonography[J]. Ultrasound Obstet Gynecol, 2011,37(4):381-396.
[8] Dietz HP, Beer-Gabel M. Ultrasound in the investigation of posterior compartment vaginal prolapse and obstructed defection[J]. Ultrasound Obstet Gynecol, 2012,40(1):14-27.
[9] Dietz HP. Ultrasound imaging of the pelvic floor. Part I: two-dimensional aspects[J]. Ultrasound Obstet Gynecol, 2004,23(1):80-92.
[10] Alper T, Cetinkaya M, Okutgen S, et al. Evaluation of urethrovesical angle by ultrasound in women with and without urinary stress incontinence[J]. Int Urogynecol J Pelvic Floor Dysfunct,2001,12(5):308-311.
[11] Herschorn S. Female pelvic floor anatomy: the pelvic floor, supporting structures, and pelvic organs[J]. Rev Urol,2004,6(5):S2-S10.
[12] Singh K,Jakab M, Wendy MN, et al. Three-dimensional magnetic resonance imaging assessment of levator ani morphologic features in different grades of prolapse[J]. Am J Obstet Gynecol,2003,188(4):910-915.
[13] Lienemann A, Sprenger D, Janssen U,et al.Assessment of pelvic organ descent by use of functional cine-MRI: which reference line should be used?[J].Neuroourol Urodyn,2004,23(1):33-37.
[14] Rosenkrantz AB, Lewis MT, Yalamanchili S,et al. Prevalence of pelvic organ prolapse detected at dynamic MRI in women without history of pelvic floor dysfunction: comparison of two reference lines[J]. Clin Radiol,2014,69(2):71-77.
[15] Kim IX,Kim YJ, Choo MS, et al. The urethra and its supporting structures in women with stress urinary incontinence: MR imaging using an endovaginal coil[J]. AJR, 2003,180(4):1037-1044.
[16] Flusberg M, Sahni VA, Erturk SM,et al. Dynamic MR defecography: assessment of the usefulness of the defecation phase[J]. AJR Am J Roentgenol, 2011, 196(4): 394-399.
[17] Reiner CS,Weishaupt D.Dynamic pelvic floor imaging: MRI techniques and imaging parameters[J].Abdom Imaging, 2013, 38(5): 903-911.
[18] Comiter CV,Vasavada SD, Barbaric ZL,et al. Grading pelvic prolapse and pelvic floor relaxation using dynamic magnetic resonance imaging[J]. Urology, 1999,54(3): 454-457.
[19] Singh K,Reid WM,Berger LA. Assessment and grading of pelvic organ prolapse by use of dynamic magnetic resonance imaging[J]. Am J Obstet Gynecol, 2001,185(1): 71-77.
[20] Lalwani N, Moshiri M, Lee JH, et al.Magnetic resonance imaging of pelvic floor dysfunction[J].Radiol Clin North Am, 2013, 51(6): 1127-1139.
[21] van der Weiden RM,Bhargava D, Dighe MK,et al.Dynamic magnetic resonance imaging before and 6 months after laparoscopic sacrocolpopexy[J]. Int Urogynecol J, 2014, 25(4): 507-515.
[22] Pannu HK, Scatarige JC,Eng J. Comparison of supine magnetic resonance imaging with and without rectal contrast to fluoroscopic cystocolpoproctography for the diagnosis of pelvic organ prolapse[J]. J Comput Assist Tomogr,2009,33(1):125-130.
[23] 李勇,韩远远,钟镜联,等. 比较两种动态MRI方法评价盆底功能障碍患者盆底结构改变的价值[J]. 中国医学影像技术,2013, 9:1509-1512.
[24] Berstchinger KM, Hetzer FH, Roos JE, et al. Dynamic MR imaging of the pelvic floor performed with patient sitting in an open-magnet unit versus with patient supine in a closed-magnet unit[J].Radiology, 2002, 22(3):501-508.
[25] Bamberg C, Rademacher G, Guttler F, et al. Human birth observed in real-time open magnetic resonance imaging[J].Am J Obstet Gynecol,2012,206(6):505.e1-505.e6.
[26] Noakes KF, Bissett IP, Pullan AJ, et al. Anatomically realistic three-dimensional meshes of the pelvic floor and anal canal for finite element analysis[J]. Ann Biomed Eng, 2008, 36(6):1060-1071.
[27] 吴龙,周义军,高劲松,等. 女性盆腔的MRI三维重建[J]. 第四军医大学学报,2009,6(12):1116-1118.
[28] 郭传家,陈春林,刘萍,等.基于磁共振成像的女性盆底肌群数字化三维模型构建[J].中国实用妇科与产科杂志,2012, 27(5): 355-358.
[29] 刘萍,陈若兰,郭传家,等. 基于磁共振成像的肛门外括约肌数字化三维模型构建[J]. 实用医学杂志, 2014, 30(2): 177-179.
(2015-01-03收稿 2015-01-24修回)
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